/*
===========================================================================

Wolfenstein: Enemy Territory GPL Source Code
Copyright (C) 1999-2010 id Software LLC, a ZeniMax Media company. 

This file is part of the Wolfenstein: Enemy Territory GPL Source Code (Wolf ET Source Code).  

Wolf ET Source Code is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

Wolf ET Source Code is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with Wolf ET Source Code.  If not, see <http://www.gnu.org/licenses/>.

In addition, the Wolf: ET Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Wolf ET Source Code.  If not, please request a copy in writing from id Software at the address below.

If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.

===========================================================================
*/


#include "l_cmd.h"
#include "l_math.h"
#include "l_mem.h"
#include "l_log.h"
#include "l_poly.h"
#include "../botlib/l_script.h"
#include "q2files.h"
#include "l_bsp_q2.h"
#include "l_bsp_ent.h"

#define q2_dmodel_t         dmodel_t
#define q2_lump_t               lump_t
#define q2_dheader_t            dheader_t
#define q2_dmodel_t         dmodel_t
#define q2_dvertex_t            dvertex_t
#define q2_dplane_t         dplane_t
#define q2_dnode_t          dnode_t
#define q2_texinfo_t            texinfo_t
#define q2_dedge_t          dedge_t
#define q2_dface_t          dface_t
#define q2_dleaf_t          dleaf_t
#define q2_dbrushside_t     dbrushside_t
#define q2_dbrush_t         dbrush_t
#define q2_dvis_t               dvis_t
#define q2_dareaportal_t    dareaportal_t
#define q2_darea_t          darea_t

#define q2_nummodels            nummodels
#define q2_dmodels          dmodels
#define q2_numleafs         numleafs
#define q2_dleafs               dleafs
#define q2_numplanes            numplanes
#define q2_dplanes          dplanes
#define q2_numvertexes      numvertexes
#define q2_dvertexes            dvertexes
#define q2_numnodes         numnodes
#define q2_dnodes               dnodes
#define q2_numtexinfo       numtexinfo
#define q2_texinfo          texinfo
#define q2_numfaces         numfaces
#define q2_dfaces               dfaces
#define q2_numedges         numedges
#define q2_dedges               dedges
#define q2_numleaffaces     numleaffaces
#define q2_dleaffaces       dleaffaces
#define q2_numleafbrushes   numleafbrushes
#define q2_dleafbrushes     dleafbrushes
#define q2_dsurfedges       dsurfedges
#define q2_numbrushes       numbrushes
#define q2_dbrushes         dbrushes
#define q2_numbrushsides    numbrushsides
#define q2_dbrushsides      dbrushsides
#define q2_numareas         numareas
#define q2_dareas               dareas
#define q2_numareaportals   numareaportals
#define q2_dareaportals     dareaportals

void GetLeafNums( void );

//=============================================================================

int nummodels;
dmodel_t            *dmodels; //[MAX_MAP_MODELS];

int visdatasize;
byte                *dvisdata; //[MAX_MAP_VISIBILITY];
dvis_t          *dvis; // = (dvis_t *)dvisdata;

int lightdatasize;
byte                *dlightdata; //[MAX_MAP_LIGHTING];

int entdatasize;
char                *dentdata; //[MAX_MAP_ENTSTRING];

int numleafs;
dleaf_t         *dleafs; //[MAX_MAP_LEAFS];

int numplanes;
dplane_t            *dplanes; //[MAX_MAP_PLANES];

int numvertexes;
dvertex_t       *dvertexes; //[MAX_MAP_VERTS];

int numnodes;
dnode_t         *dnodes; //[MAX_MAP_NODES];

//NOTE: must be static for q2 .map to q2 .bsp
int numtexinfo;
texinfo_t texinfo[MAX_MAP_TEXINFO];

int numfaces;
dface_t         *dfaces; //[MAX_MAP_FACES];

int numedges;
dedge_t         *dedges; //[MAX_MAP_EDGES];

int numleaffaces;
unsigned short  *dleaffaces; //[MAX_MAP_LEAFFACES];

int numleafbrushes;
unsigned short  *dleafbrushes; //[MAX_MAP_LEAFBRUSHES];

int numsurfedges;
int             *dsurfedges; //[MAX_MAP_SURFEDGES];

int numbrushes;
dbrush_t            *dbrushes; //[MAX_MAP_BRUSHES];

int numbrushsides;
dbrushside_t    *dbrushsides; //[MAX_MAP_BRUSHSIDES];

int numareas;
darea_t         *dareas; //[MAX_MAP_AREAS];

int numareaportals;
dareaportal_t   *dareaportals; //[MAX_MAP_AREAPORTALS];

#define MAX_MAP_DPOP            256
byte dpop[MAX_MAP_DPOP];

//
char brushsidetextured[MAX_MAP_BRUSHSIDES];

//#ifdef ME

int bspallocated = false;
int allocatedbspmem = 0;

void Q2_AllocMaxBSP( void ) {
	//models
	nummodels = 0;
	dmodels = (dmodel_t *) GetClearedMemory( MAX_MAP_MODELS * sizeof( dmodel_t ) );
	allocatedbspmem += MAX_MAP_MODELS * sizeof( dmodel_t );
	//vis data
	visdatasize = 0;
	dvisdata = (byte *) GetClearedMemory( MAX_MAP_VISIBILITY * sizeof( byte ) );
	dvis = (dvis_t *) dvisdata;
	allocatedbspmem += MAX_MAP_VISIBILITY * sizeof( byte );
	//light data
	lightdatasize = 0;
	dlightdata = (byte *) GetClearedMemory( MAX_MAP_LIGHTING * sizeof( byte ) );
	allocatedbspmem += MAX_MAP_LIGHTING * sizeof( byte );
	//entity data
	entdatasize = 0;
	dentdata = (char *) GetClearedMemory( MAX_MAP_ENTSTRING * sizeof( char ) );
	allocatedbspmem += MAX_MAP_ENTSTRING * sizeof( char );
	//leafs
	numleafs = 0;
	dleafs = (dleaf_t *) GetClearedMemory( MAX_MAP_LEAFS * sizeof( dleaf_t ) );
	allocatedbspmem += MAX_MAP_LEAFS * sizeof( dleaf_t );
	//planes
	numplanes = 0;
	dplanes = (dplane_t *) GetClearedMemory( MAX_MAP_PLANES * sizeof( dplane_t ) );
	allocatedbspmem += MAX_MAP_PLANES * sizeof( dplane_t );
	//vertexes
	numvertexes = 0;
	dvertexes = (dvertex_t *) GetClearedMemory( MAX_MAP_VERTS * sizeof( dvertex_t ) );
	allocatedbspmem += MAX_MAP_VERTS * sizeof( dvertex_t );
	//nodes
	numnodes = 0;
	dnodes = (dnode_t *) GetClearedMemory( MAX_MAP_NODES * sizeof( dnode_t ) );
	allocatedbspmem += MAX_MAP_NODES * sizeof( dnode_t );
	/*
	//texture info
	numtexinfo = 0;
	texinfo = (texinfo_t *) GetClearedMemory(MAX_MAP_TEXINFO * sizeof(texinfo_t));
	allocatedbspmem += MAX_MAP_TEXINFO * sizeof(texinfo_t);
	//*/
	//faces
	numfaces = 0;
	dfaces = (dface_t *) GetClearedMemory( MAX_MAP_FACES * sizeof( dface_t ) );
	allocatedbspmem += MAX_MAP_FACES * sizeof( dface_t );
	//edges
	numedges = 0;
	dedges = (dedge_t *) GetClearedMemory( MAX_MAP_EDGES * sizeof( dedge_t ) );
	allocatedbspmem += MAX_MAP_EDGES * sizeof( dedge_t );
	//leaf faces
	numleaffaces = 0;
	dleaffaces = (unsigned short *) GetClearedMemory( MAX_MAP_LEAFFACES * sizeof( unsigned short ) );
	allocatedbspmem += MAX_MAP_LEAFFACES * sizeof( unsigned short );
	//leaf brushes
	numleafbrushes = 0;
	dleafbrushes = (unsigned short *) GetClearedMemory( MAX_MAP_LEAFBRUSHES * sizeof( unsigned short ) );
	allocatedbspmem += MAX_MAP_LEAFBRUSHES * sizeof( unsigned short );
	//surface edges
	numsurfedges = 0;
	dsurfedges = (int *) GetClearedMemory( MAX_MAP_SURFEDGES * sizeof( int ) );
	allocatedbspmem += MAX_MAP_SURFEDGES * sizeof( int );
	//brushes
	numbrushes = 0;
	dbrushes = (dbrush_t *) GetClearedMemory( MAX_MAP_BRUSHES * sizeof( dbrush_t ) );
	allocatedbspmem += MAX_MAP_BRUSHES * sizeof( dbrush_t );
	//brushsides
	numbrushsides = 0;
	dbrushsides = (dbrushside_t *) GetClearedMemory( MAX_MAP_BRUSHSIDES * sizeof( dbrushside_t ) );
	allocatedbspmem += MAX_MAP_BRUSHSIDES * sizeof( dbrushside_t );
	//areas
	numareas = 0;
	dareas = (darea_t *) GetClearedMemory( MAX_MAP_AREAS * sizeof( darea_t ) );
	allocatedbspmem += MAX_MAP_AREAS * sizeof( darea_t );
	//area portals
	numareaportals = 0;
	dareaportals = (dareaportal_t *) GetClearedMemory( MAX_MAP_AREAPORTALS * sizeof( dareaportal_t ) );
	allocatedbspmem += MAX_MAP_AREAPORTALS * sizeof( dareaportal_t );
	//print allocated memory
	Log_Print( "allocated " );
	PrintMemorySize( allocatedbspmem );
	Log_Print( " of BSP memory\n" );
} //end of the function Q2_AllocMaxBSP

void Q2_FreeMaxBSP( void ) {
	//models
	nummodels = 0;
	FreeMemory( dmodels );
	dmodels = NULL;
	//vis data
	visdatasize = 0;
	FreeMemory( dvisdata );
	dvisdata = NULL;
	dvis = NULL;
	//light data
	lightdatasize = 0;
	FreeMemory( dlightdata );
	dlightdata = NULL;
	//entity data
	entdatasize = 0;
	FreeMemory( dentdata );
	dentdata = NULL;
	//leafs
	numleafs = 0;
	FreeMemory( dleafs );
	dleafs = NULL;
	//planes
	numplanes = 0;
	FreeMemory( dplanes );
	dplanes = NULL;
	//vertexes
	numvertexes = 0;
	FreeMemory( dvertexes );
	dvertexes = NULL;
	//nodes
	numnodes = 0;
	FreeMemory( dnodes );
	dnodes = NULL;
	/*
	//texture info
	numtexinfo = 0;
	FreeMemory(texinfo);
	texinfo = NULL;
	//*/
	//faces
	numfaces = 0;
	FreeMemory( dfaces );
	dfaces = NULL;
	//edges
	numedges = 0;
	FreeMemory( dedges );
	dedges = NULL;
	//leaf faces
	numleaffaces = 0;
	FreeMemory( dleaffaces );
	dleaffaces = NULL;
	//leaf brushes
	numleafbrushes = 0;
	FreeMemory( dleafbrushes );
	dleafbrushes = NULL;
	//surface edges
	numsurfedges = 0;
	FreeMemory( dsurfedges );
	dsurfedges = NULL;
	//brushes
	numbrushes = 0;
	FreeMemory( dbrushes );
	dbrushes = NULL;
	//brushsides
	numbrushsides = 0;
	FreeMemory( dbrushsides );
	dbrushsides = NULL;
	//areas
	numareas = 0;
	FreeMemory( dareas );
	dareas = NULL;
	//area portals
	numareaportals = 0;
	FreeMemory( dareaportals );
	dareaportals = NULL;
	//
	Log_Print( "freed " );
	PrintMemorySize( allocatedbspmem );
	Log_Print( " of BSP memory\n" );
	allocatedbspmem = 0;
} //end of the function Q2_FreeMaxBSP

#define WCONVEX_EPSILON     0.5

int InsideWinding( winding_t *w, vec3_t point, int planenum ) {
	int i;
	float dist;
	vec_t *v1, *v2;
	vec3_t normal, edgevec;
	dplane_t *plane;

	for ( i = 1; i <= w->numpoints; i++ )
	{
		v1 = w->p[i % w->numpoints];
		v2 = w->p[( i + 1 ) % w->numpoints];

		VectorSubtract( v2, v1, edgevec );
		plane = &dplanes[planenum];
		CrossProduct( plane->normal, edgevec, normal );
		VectorNormalize( normal );
		dist = DotProduct( normal, v1 );
		//
		if ( DotProduct( normal, point ) - dist > WCONVEX_EPSILON ) {
			return false;
		}
	} //end for
	return true;
} //end of the function InsideWinding

int InsideFace( dface_t *face, vec3_t point ) {
	int i, edgenum, side;
	float dist;
	vec_t *v1, *v2;
	vec3_t normal, edgevec;
	dplane_t *plane;

	for ( i = 0; i < face->numedges; i++ )
	{
		//get the first and second vertex of the edge
		edgenum = dsurfedges[face->firstedge + i];
		side = edgenum < 0;
		v1 = dvertexes[dedges[abs( edgenum )].v[side]].point;
		v2 = dvertexes[dedges[abs( edgenum )].v[!side]].point;
		//create a plane through the edge vector, orthogonal to the face plane
		//and with the normal vector pointing out of the face
		VectorSubtract( v1, v2, edgevec );
		plane = &dplanes[face->planenum];
		CrossProduct( plane->normal, edgevec, normal );
		VectorNormalize( normal );
		dist = DotProduct( normal, v1 );
		//
		if ( DotProduct( normal, point ) - dist > WCONVEX_EPSILON ) {
			return false;
		}
	} //end for
	return true;
} //end of the function InsideFace
//===========================================================================
// returns the amount the face and the winding overlap
//
// Parameter:				-
// Returns:					-
// Changes Globals:		-
//===========================================================================
float Q2_FaceOnWinding( q2_dface_t *face, winding_t *winding ) {
	int i, edgenum, side;
	float dist, area;
	q2_dplane_t plane;
	vec_t *v1, *v2;
	vec3_t normal, edgevec;
	winding_t *w;

	//
	w = CopyWinding( winding );
	memcpy( &plane, &q2_dplanes[face->planenum], sizeof( q2_dplane_t ) );
	//check on which side of the plane the face is
	if ( face->side ) {
		VectorNegate( plane.normal, plane.normal );
		plane.dist = -plane.dist;
	} //end if
	for ( i = 0; i < face->numedges && w; i++ )
	{
		//get the first and second vertex of the edge
		edgenum = q2_dsurfedges[face->firstedge + i];
		side = edgenum > 0;
		//if the face plane is flipped
		v1 = q2_dvertexes[q2_dedges[abs( edgenum )].v[side]].point;
		v2 = q2_dvertexes[q2_dedges[abs( edgenum )].v[!side]].point;
		//create a plane through the edge vector, orthogonal to the face plane
		//and with the normal vector pointing inward
		VectorSubtract( v1, v2, edgevec );
		CrossProduct( edgevec, plane.normal, normal );
		VectorNormalize( normal );
		dist = DotProduct( normal, v1 );
		//
		ChopWindingInPlace( &w, normal, dist, -0.1 ); //CLIP_EPSILON
	} //end for
	if ( w ) {
		area = WindingArea( w );
		FreeWinding( w );
		return area;
	} //end if
	return 0;
} //end of the function Q2_FaceOnWinding
//===========================================================================
// creates a winding for the given brush side on the given brush
//
// Parameter:				-
// Returns:					-
// Changes Globals:		-
//===========================================================================
winding_t *Q2_BrushSideWinding( dbrush_t *brush, dbrushside_t *baseside ) {
	int i;
	dplane_t *baseplane, *plane;
	winding_t *w;
	dbrushside_t *side;

	//create a winding for the brush side with the given planenumber
	baseplane = &dplanes[baseside->planenum];
	w = BaseWindingForPlane( baseplane->normal, baseplane->dist );
	for ( i = 0; i < brush->numsides && w; i++ )
	{
		side = &dbrushsides[brush->firstside + i];
		//don't chop with the base plane
		if ( side->planenum == baseside->planenum ) {
			continue;
		}
		//also don't use planes that are almost equal
		plane = &dplanes[side->planenum];
		if ( DotProduct( baseplane->normal, plane->normal ) > 0.999
			 && fabs( baseplane->dist - plane->dist ) < 0.01 ) {
			continue;
		}
		//
		plane = &dplanes[side->planenum ^ 1];
		ChopWindingInPlace( &w, plane->normal, plane->dist, -0.1 ); //CLIP_EPSILON);
	} //end for
	return w;
} //end of the function Q2_BrushSideWinding
//===========================================================================
//
// Parameter:				-
// Returns:					-
// Changes Globals:		-
//===========================================================================
int Q2_HintSkipBrush( dbrush_t *brush ) {
	int j;
	dbrushside_t *brushside;

	for ( j = 0; j < brush->numsides; j++ )
	{
		brushside = &dbrushsides[brush->firstside + j];
		if ( brushside->texinfo > 0 ) {
//			if (texinfo[brushside->texinfo].flags & (SURF_SKIP|SURF_HINT))
//			{
//				return true;
//			} //end if
		} //end if
	} //end for
	return false;
} //end of the function Q2_HintSkipBrush
//===========================================================================
// fix screwed brush texture references
//
// Parameter:				-
// Returns:					-
// Changes Globals:		-
//===========================================================================
qboolean WindingIsTiny( winding_t *w );

void Q2_FixTextureReferences( void ) {
	int i, j, k, we;
	dbrushside_t *brushside;
	dbrush_t *brush;
	dface_t *face;
	winding_t *w;

	memset( brushsidetextured, false, MAX_MAP_BRUSHSIDES );
	//go over all the brushes
	for ( i = 0; i < numbrushes; i++ )
	{
		brush = &dbrushes[i];
		//hint brushes are not textured
		if ( Q2_HintSkipBrush( brush ) ) {
			continue;
		}
		//go over all the sides of the brush
		for ( j = 0; j < brush->numsides; j++ )
		{
			brushside = &dbrushsides[brush->firstside + j];
			//
			w = Q2_BrushSideWinding( brush, brushside );
			if ( !w ) {
				brushsidetextured[brush->firstside + j] = true;
				continue;
			} //end if
			else
			{
				//RemoveEqualPoints(w, 0.2);
				if ( WindingIsTiny( w ) ) {
					FreeWinding( w );
					brushsidetextured[brush->firstside + j] = true;
					continue;
				} //end if
				else
				{
					we = WindingError( w );
					if ( we == WE_NOTENOUGHPOINTS
						 || we == WE_SMALLAREA
						 || we == WE_POINTBOGUSRANGE
//						|| we == WE_NONCONVEX
						 ) {
						FreeWinding( w );
						brushsidetextured[brush->firstside + j] = true;
						continue;
					} //end if
				} //end else
			} //end else
			if ( WindingArea( w ) < 20 ) {
				brushsidetextured[brush->firstside + j] = true;
			} //end if
			  //find a face for texturing this brush
			for ( k = 0; k < numfaces; k++ )
			{
				face = &dfaces[k];
				//if the face is in the same plane as the brush side
				if ( ( face->planenum & ~1 ) != ( brushside->planenum & ~1 ) ) {
					continue;
				}
				//if the face is partly or totally on the brush side
				if ( Q2_FaceOnWinding( face, w ) ) {
					brushside->texinfo = face->texinfo;
					brushsidetextured[brush->firstside + j] = true;
					break;
				} //end if
			} //end for
			FreeWinding( w );
		} //end for
	} //end for
} //end of the function Q2_FixTextureReferences*/

//#endif //ME


/*
===============
CompressVis

===============
*/
int Q2_CompressVis( byte *vis, byte *dest ) {
	int j;
	int rep;
	int visrow;
	byte    *dest_p;

	dest_p = dest;
//	visrow = (r_numvisleafs + 7)>>3;
	visrow = ( dvis->numclusters + 7 ) >> 3;

	for ( j = 0 ; j < visrow ; j++ )
	{
		*dest_p++ = vis[j];
		if ( vis[j] ) {
			continue;
		}

		rep = 1;
		for ( j++; j < visrow ; j++ )
			if ( vis[j] || rep == 255 ) {
				break;
			} else {
				rep++;
			}
		*dest_p++ = rep;
		j--;
	}

	return dest_p - dest;
}


/*
===================
DecompressVis
===================
*/
void Q2_DecompressVis( byte *in, byte *decompressed ) {
	int c;
	byte    *out;
	int row;

//	row = (r_numvisleafs+7)>>3;
	row = ( dvis->numclusters + 7 ) >> 3;
	out = decompressed;

	do
	{
		if ( *in ) {
			*out++ = *in++;
			continue;
		}

		c = in[1];
		if ( !c ) {
			Error( "DecompressVis: 0 repeat" );
		}
		in += 2;
		while ( c )
		{
			*out++ = 0;
			c--;
		}
	} while ( out - decompressed < row );
}

//=============================================================================

/*
=============
SwapBSPFile

Byte swaps all data in a bsp file.
=============
*/
void Q2_SwapBSPFile( qboolean todisk ) {
	int i, j;
	dmodel_t        *d;


// models
	for ( i = 0 ; i < nummodels ; i++ )
	{
		d = &dmodels[i];

		d->firstface = LittleLong( d->firstface );
		d->numfaces = LittleLong( d->numfaces );
		d->headnode = LittleLong( d->headnode );

		for ( j = 0 ; j < 3 ; j++ )
		{
			d->mins[j] = LittleFloat( d->mins[j] );
			d->maxs[j] = LittleFloat( d->maxs[j] );
			d->origin[j] = LittleFloat( d->origin[j] );
		}
	}

//
// vertexes
//
	for ( i = 0 ; i < numvertexes ; i++ )
	{
		for ( j = 0 ; j < 3 ; j++ )
			dvertexes[i].point[j] = LittleFloat( dvertexes[i].point[j] );
	}

//
// planes
//
	for ( i = 0 ; i < numplanes ; i++ )
	{
		for ( j = 0 ; j < 3 ; j++ )
			dplanes[i].normal[j] = LittleFloat( dplanes[i].normal[j] );
		dplanes[i].dist = LittleFloat( dplanes[i].dist );
		dplanes[i].type = LittleLong( dplanes[i].type );
	}

//
// texinfos
//
	for ( i = 0 ; i < numtexinfo ; i++ )
	{
		for ( j = 0 ; j < 8 ; j++ )
			texinfo[i].vecs[0][j] = LittleFloat( texinfo[i].vecs[0][j] );
		texinfo[i].flags = LittleLong( texinfo[i].flags );
		texinfo[i].value = LittleLong( texinfo[i].value );
		texinfo[i].nexttexinfo = LittleLong( texinfo[i].nexttexinfo );
	}

//
// faces
//
	for ( i = 0 ; i < numfaces ; i++ )
	{
		dfaces[i].texinfo = LittleShort( dfaces[i].texinfo );
		dfaces[i].planenum = LittleShort( dfaces[i].planenum );
		dfaces[i].side = LittleShort( dfaces[i].side );
		dfaces[i].lightofs = LittleLong( dfaces[i].lightofs );
		dfaces[i].firstedge = LittleLong( dfaces[i].firstedge );
		dfaces[i].numedges = LittleShort( dfaces[i].numedges );
	}

//
// nodes
//
	for ( i = 0 ; i < numnodes ; i++ )
	{
		dnodes[i].planenum = LittleLong( dnodes[i].planenum );
		for ( j = 0 ; j < 3 ; j++ )
		{
			dnodes[i].mins[j] = LittleShort( dnodes[i].mins[j] );
			dnodes[i].maxs[j] = LittleShort( dnodes[i].maxs[j] );
		}
		dnodes[i].children[0] = LittleLong( dnodes[i].children[0] );
		dnodes[i].children[1] = LittleLong( dnodes[i].children[1] );
		dnodes[i].firstface = LittleShort( dnodes[i].firstface );
		dnodes[i].numfaces = LittleShort( dnodes[i].numfaces );
	}

//
// leafs
//
	for ( i = 0 ; i < numleafs ; i++ )
	{
		dleafs[i].contents = LittleLong( dleafs[i].contents );
		dleafs[i].cluster = LittleShort( dleafs[i].cluster );
		dleafs[i].area = LittleShort( dleafs[i].area );
		for ( j = 0 ; j < 3 ; j++ )
		{
			dleafs[i].mins[j] = LittleShort( dleafs[i].mins[j] );
			dleafs[i].maxs[j] = LittleShort( dleafs[i].maxs[j] );
		}

		dleafs[i].firstleafface = LittleShort( dleafs[i].firstleafface );
		dleafs[i].numleaffaces = LittleShort( dleafs[i].numleaffaces );
		dleafs[i].firstleafbrush = LittleShort( dleafs[i].firstleafbrush );
		dleafs[i].numleafbrushes = LittleShort( dleafs[i].numleafbrushes );
	}

//
// leaffaces
//
	for ( i = 0 ; i < numleaffaces ; i++ )
		dleaffaces[i] = LittleShort( dleaffaces[i] );

//
// leafbrushes
//
	for ( i = 0 ; i < numleafbrushes ; i++ )
		dleafbrushes[i] = LittleShort( dleafbrushes[i] );

//
// surfedges
//
	for ( i = 0 ; i < numsurfedges ; i++ )
		dsurfedges[i] = LittleLong( dsurfedges[i] );

//
// edges
//
	for ( i = 0 ; i < numedges ; i++ )
	{
		dedges[i].v[0] = LittleShort( dedges[i].v[0] );
		dedges[i].v[1] = LittleShort( dedges[i].v[1] );
	}

//
// brushes
//
	for ( i = 0 ; i < numbrushes ; i++ )
	{
		dbrushes[i].firstside = LittleLong( dbrushes[i].firstside );
		dbrushes[i].numsides = LittleLong( dbrushes[i].numsides );
		dbrushes[i].contents = LittleLong( dbrushes[i].contents );
	}

//
// areas
//
	for ( i = 0 ; i < numareas ; i++ )
	{
		dareas[i].numareaportals = LittleLong( dareas[i].numareaportals );
		dareas[i].firstareaportal = LittleLong( dareas[i].firstareaportal );
	}

//
// areasportals
//
	for ( i = 0 ; i < numareaportals ; i++ )
	{
		dareaportals[i].portalnum = LittleLong( dareaportals[i].portalnum );
		dareaportals[i].otherarea = LittleLong( dareaportals[i].otherarea );
	}

//
// brushsides
//
	for ( i = 0 ; i < numbrushsides ; i++ )
	{
		dbrushsides[i].planenum = LittleShort( dbrushsides[i].planenum );
		dbrushsides[i].texinfo = LittleShort( dbrushsides[i].texinfo );
	}

//
// visibility
//
	if ( todisk ) {
		j = dvis->numclusters;
	} else {
		j = LittleLong( dvis->numclusters );
	}
	dvis->numclusters = LittleLong( dvis->numclusters );
	for ( i = 0 ; i < j ; i++ )
	{
		dvis->bitofs[i][0] = LittleLong( dvis->bitofs[i][0] );
		dvis->bitofs[i][1] = LittleLong( dvis->bitofs[i][1] );
	}
} //end of the function Q2_SwapBSPFile


dheader_t   *header;

int Q2_CopyLump( int lump, void *dest, int size, int maxsize ) {
	int length, ofs;

	length = header->lumps[lump].filelen;
	ofs = header->lumps[lump].fileofs;

	if ( length % size ) {
		Error( "LoadBSPFile: odd lump size" );
	}

	if ( ( length / size ) > maxsize ) {
		Error( "Q2_LoadBSPFile: exceeded max size for lump %d size %d > maxsize %d\n", lump, ( length / size ), maxsize );
	}

	memcpy( dest, (byte *)header + ofs, length );

	return length / size;
} //end of the function Q2_CopyLump

/*
=============
LoadBSPFile
=============
*/
void Q2_LoadBSPFile( char *filename, int offset, int length ) {
	int i;

//
// load the file header
//
	LoadFile( filename, (void **)&header, offset, length );

// swap the header
	for ( i = 0 ; i < sizeof( dheader_t ) / 4 ; i++ )
		( (int *)header )[i] = LittleLong( ( (int *)header )[i] );

	if ( header->ident != IDBSPHEADER ) {
		Error( "%s is not a IBSP file", filename );
	}
	if ( header->version != BSPVERSION ) {
		Error( "%s is version %i, not %i", filename, header->version, BSPVERSION );
	}

	nummodels = Q2_CopyLump( LUMP_MODELS, dmodels, sizeof( dmodel_t ), MAX_MAP_MODELS );
	numvertexes = Q2_CopyLump( LUMP_VERTEXES, dvertexes, sizeof( dvertex_t ), MAX_MAP_VERTS );
	numplanes = Q2_CopyLump( LUMP_PLANES, dplanes, sizeof( dplane_t ), MAX_MAP_PLANES );
	numleafs = Q2_CopyLump( LUMP_LEAFS, dleafs, sizeof( dleaf_t ), MAX_MAP_LEAFS );
	numnodes = Q2_CopyLump( LUMP_NODES, dnodes, sizeof( dnode_t ), MAX_MAP_NODES );
	numtexinfo = Q2_CopyLump( LUMP_TEXINFO, texinfo, sizeof( texinfo_t ), MAX_MAP_TEXINFO );
	numfaces = Q2_CopyLump( LUMP_FACES, dfaces, sizeof( dface_t ), MAX_MAP_FACES );
	numleaffaces = Q2_CopyLump( LUMP_LEAFFACES, dleaffaces, sizeof( dleaffaces[0] ), MAX_MAP_LEAFFACES );
	numleafbrushes = Q2_CopyLump( LUMP_LEAFBRUSHES, dleafbrushes, sizeof( dleafbrushes[0] ), MAX_MAP_LEAFBRUSHES );
	numsurfedges = Q2_CopyLump( LUMP_SURFEDGES, dsurfedges, sizeof( dsurfedges[0] ), MAX_MAP_SURFEDGES );
	numedges = Q2_CopyLump( LUMP_EDGES, dedges, sizeof( dedge_t ), MAX_MAP_EDGES );
	numbrushes = Q2_CopyLump( LUMP_BRUSHES, dbrushes, sizeof( dbrush_t ), MAX_MAP_BRUSHES );
	numbrushsides = Q2_CopyLump( LUMP_BRUSHSIDES, dbrushsides, sizeof( dbrushside_t ), MAX_MAP_BRUSHSIDES );
	numareas = Q2_CopyLump( LUMP_AREAS, dareas, sizeof( darea_t ), MAX_MAP_AREAS );
	numareaportals = Q2_CopyLump( LUMP_AREAPORTALS, dareaportals, sizeof( dareaportal_t ), MAX_MAP_AREAPORTALS );

	visdatasize = Q2_CopyLump( LUMP_VISIBILITY, dvisdata, 1, MAX_MAP_VISIBILITY );
	lightdatasize = Q2_CopyLump( LUMP_LIGHTING, dlightdata, 1, MAX_MAP_LIGHTING );
	entdatasize = Q2_CopyLump( LUMP_ENTITIES, dentdata, 1, MAX_MAP_ENTSTRING );

	Q2_CopyLump( LUMP_POP, dpop, 1, MAX_MAP_DPOP );

	FreeMemory( header );     // everything has been copied out

//
// swap everything
//
	Q2_SwapBSPFile( false );

	Q2_FixTextureReferences();
} //end of the function Q2_LoadBSPFile


/*
=============
LoadBSPFileTexinfo

Only loads the texinfo lump, so qdata can scan for textures
=============
*/
void    Q2_LoadBSPFileTexinfo( char *filename ) {
	int i;
	FILE        *f;
	int length, ofs;

	header = GetMemory( sizeof( dheader_t ) );

	f = fopen( filename, "rb" );
	fread( header, sizeof( dheader_t ), 1, f );

// swap the header
	for ( i = 0 ; i < sizeof( dheader_t ) / 4 ; i++ )
		( (int *)header )[i] = LittleLong( ( (int *)header )[i] );

	if ( header->ident != IDBSPHEADER ) {
		Error( "%s is not a IBSP file", filename );
	}
	if ( header->version != BSPVERSION ) {
		Error( "%s is version %i, not %i", filename, header->version, BSPVERSION );
	}


	length = header->lumps[LUMP_TEXINFO].filelen;
	ofs = header->lumps[LUMP_TEXINFO].fileofs;

	fseek( f, ofs, SEEK_SET );
	fread( texinfo, length, 1, f );
	fclose( f );

	numtexinfo = length / sizeof( texinfo_t );

	FreeMemory( header );     // everything has been copied out

	Q2_SwapBSPFile( false );
} //end of the function Q2_LoadBSPFileTexinfo


//============================================================================

FILE        *wadfile;
dheader_t outheader;

void Q2_AddLump( int lumpnum, void *data, int len ) {
	lump_t *lump;

	lump = &header->lumps[lumpnum];

	lump->fileofs = LittleLong( ftell( wadfile ) );
	lump->filelen = LittleLong( len );
	SafeWrite( wadfile, data, ( len + 3 ) & ~3 );
} //end of the function Q2_AddLump

/*
=============
WriteBSPFile

Swaps the bsp file in place, so it should not be referenced again
=============
*/
void    Q2_WriteBSPFile( char *filename ) {
	header = &outheader;
	memset( header, 0, sizeof( dheader_t ) );

	Q2_SwapBSPFile( true );

	header->ident = LittleLong( IDBSPHEADER );
	header->version = LittleLong( BSPVERSION );

	wadfile = SafeOpenWrite( filename );
	SafeWrite( wadfile, header, sizeof( dheader_t ) ); // overwritten later

	Q2_AddLump( LUMP_PLANES, dplanes, numplanes * sizeof( dplane_t ) );
	Q2_AddLump( LUMP_LEAFS, dleafs, numleafs * sizeof( dleaf_t ) );
	Q2_AddLump( LUMP_VERTEXES, dvertexes, numvertexes * sizeof( dvertex_t ) );
	Q2_AddLump( LUMP_NODES, dnodes, numnodes * sizeof( dnode_t ) );
	Q2_AddLump( LUMP_TEXINFO, texinfo, numtexinfo * sizeof( texinfo_t ) );
	Q2_AddLump( LUMP_FACES, dfaces, numfaces * sizeof( dface_t ) );
	Q2_AddLump( LUMP_BRUSHES, dbrushes, numbrushes * sizeof( dbrush_t ) );
	Q2_AddLump( LUMP_BRUSHSIDES, dbrushsides, numbrushsides * sizeof( dbrushside_t ) );
	Q2_AddLump( LUMP_LEAFFACES, dleaffaces, numleaffaces * sizeof( dleaffaces[0] ) );
	Q2_AddLump( LUMP_LEAFBRUSHES, dleafbrushes, numleafbrushes * sizeof( dleafbrushes[0] ) );
	Q2_AddLump( LUMP_SURFEDGES, dsurfedges, numsurfedges * sizeof( dsurfedges[0] ) );
	Q2_AddLump( LUMP_EDGES, dedges, numedges * sizeof( dedge_t ) );
	Q2_AddLump( LUMP_MODELS, dmodels, nummodels * sizeof( dmodel_t ) );
	Q2_AddLump( LUMP_AREAS, dareas, numareas * sizeof( darea_t ) );
	Q2_AddLump( LUMP_AREAPORTALS, dareaportals, numareaportals * sizeof( dareaportal_t ) );

	Q2_AddLump( LUMP_LIGHTING, dlightdata, lightdatasize );
	Q2_AddLump( LUMP_VISIBILITY, dvisdata, visdatasize );
	Q2_AddLump( LUMP_ENTITIES, dentdata, entdatasize );
	Q2_AddLump( LUMP_POP, dpop, sizeof( dpop ) );

	fseek( wadfile, 0, SEEK_SET );
	SafeWrite( wadfile, header, sizeof( dheader_t ) );
	fclose( wadfile );
} //end of the function Q2_WriteBSPFile

//============================================================================

/*
=============
PrintBSPFileSizes

Dumps info about current file
=============
*/
void Q2_PrintBSPFileSizes( void ) {
	if ( !num_entities ) {
		Q2_ParseEntities();
	}

	printf( "%6i models       %7i\n"
			,nummodels, (int)( nummodels * sizeof( dmodel_t ) ) );
	printf( "%6i brushes      %7i\n"
			,numbrushes, (int)( numbrushes * sizeof( dbrush_t ) ) );
	printf( "%6i brushsides   %7i\n"
			,numbrushsides, (int)( numbrushsides * sizeof( dbrushside_t ) ) );
	printf( "%6i planes       %7i\n"
			,numplanes, (int)( numplanes * sizeof( dplane_t ) ) );
	printf( "%6i texinfo      %7i\n"
			,numtexinfo, (int)( numtexinfo * sizeof( texinfo_t ) ) );
	printf( "%6i entdata      %7i\n", num_entities, entdatasize );

	printf( "\n" );

	printf( "%6i vertexes     %7i\n"
			,numvertexes, (int)( numvertexes * sizeof( dvertex_t ) ) );
	printf( "%6i nodes        %7i\n"
			,numnodes, (int)( numnodes * sizeof( dnode_t ) ) );
	printf( "%6i faces        %7i\n"
			,numfaces, (int)( numfaces * sizeof( dface_t ) ) );
	printf( "%6i leafs        %7i\n"
			,numleafs, (int)( numleafs * sizeof( dleaf_t ) ) );
	printf( "%6i leaffaces    %7i\n"
			,numleaffaces, (int)( numleaffaces * sizeof( dleaffaces[0] ) ) );
	printf( "%6i leafbrushes  %7i\n"
			,numleafbrushes, (int)( numleafbrushes * sizeof( dleafbrushes[0] ) ) );
	printf( "%6i surfedges    %7i\n"
			,numsurfedges, (int)( numsurfedges * sizeof( dsurfedges[0] ) ) );
	printf( "%6i edges        %7i\n"
			,numedges, (int)( numedges * sizeof( dedge_t ) ) );
//NEW
	printf( "%6i areas        %7i\n"
			,numareas, (int)( numareas * sizeof( darea_t ) ) );
	printf( "%6i areaportals  %7i\n"
			,numareaportals, (int)( numareaportals * sizeof( dareaportal_t ) ) );
//ENDNEW
	printf( "      lightdata    %7i\n", lightdatasize );
	printf( "      visdata      %7i\n", visdatasize );
} //end of the function Q2_PrintBSPFileSizes

/*
================
ParseEntities

Parses the dentdata string into entities
================
*/
void Q2_ParseEntities( void ) {
	script_t *script;

	num_entities = 0;
	script = LoadScriptMemory( dentdata, entdatasize, "*Quake2 bsp file" );
	SetScriptFlags( script, SCFL_NOSTRINGWHITESPACES |
					SCFL_NOSTRINGESCAPECHARS );

	while ( ParseEntity( script ) )
	{
	} //end while

	FreeScript( script );
} //end of the function Q2_ParseEntities


/*
================
UnparseEntities

Generates the dentdata string from all the entities
================
*/
void Q2_UnparseEntities( void ) {
	char    *buf, *end;
	epair_t *ep;
	char line[2048];
	int i;
	char key[1024], value[1024];

	buf = dentdata;
	end = buf;
	*end = 0;

	for ( i = 0 ; i < num_entities ; i++ )
	{
		ep = entities[i].epairs;
		if ( !ep ) {
			continue;   // ent got removed

		}
		strcat( end,"{\n" );
		end += 2;

		for ( ep = entities[i].epairs ; ep ; ep = ep->next )
		{
			strcpy( key, ep->key );
			StripTrailing( key );
			strcpy( value, ep->value );
			StripTrailing( value );

			sprintf( line, "\"%s\" \"%s\"\n", key, value );
			strcat( end, line );
			end += strlen( line );
		}
		strcat( end,"}\n" );
		end += 2;

		if ( end > buf + MAX_MAP_ENTSTRING ) {
			Error( "Entity text too long" );
		}
	}
	entdatasize = end - buf + 1;
} //end of the function Q2_UnparseEntities

